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scatteringstudier

Scatteringstudier is a term used to refer to researchers and studies focused on scattering phenomena—the deflection of waves or particles by inhomogeneous media. It encompasses theoretical, experimental, and computational work across disciplines such as physics, chemistry, materials science, and earth and atmospheric sciences. The central aim is to understand how structure, composition, and dynamics influence how waves and particles scatter.

Subfields include optical scattering (Rayleigh, Mie, Brillouin, and Raman scattering), X-ray and neutron scattering used to

Methods range from laboratory experiments using spectrometers, goniometers, and detectors to large facilities such as synchrotrons,

Applications include characterizing nanomaterials and biological macromolecules, imaging and metrology, atmospheric science and climate research, and

See also: light scattering, neutron scattering, X-ray scattering, Raman spectroscopy.

probe
microstructure,
electron
scattering
in
solids,
and
acoustic
or
seismic
scattering.
Researchers
study
cross
sections,
phase
functions,
scattering
lengths,
and
structure
factors
to
infer
size
distributions,
shapes,
and
interactions.
neutron
sources,
or
laser
laboratories.
Analyses
often
involve
theoretical
models,
such
as
Mie
theory,
the
Debye–Bueche
model,
or
the
T-matrix
method,
plus
numerical
simulations
and
inverse
problem
techniques
to
reconstruct
material
properties
from
scattered
signals.
non-destructive
testing
of
industrial
materials.
The
field
emphasizes
quantitative
interpretation
and
uncertainty
assessment.